Could spiders be the key to saving our bees? A novel bio-pesticide created using spider venom and a plant protein has been found to be safe for honeybees - despite being highly toxic to a number of key insect pests. New research, led by 缅北禁地, has tested the insect-specific Hv1a/GNA fusion protein bio-pesticide 鈥 a combination of a natural toxin from the venom of an Australian funnel web spider and snowdrop lectin. Feeding acute and chronic doses to honeybees - beyond the levels they would ever experience in the field - the team found it had only a very slight effect on the bees鈥 survival and no measurable effect at all on their learning and memory. Publishing their findings today in the academic journal Proceedings of the Royal Society B, the authors say the insect-specific compound has huge potential as an environmentally-benign, 鈥榖ee-safe鈥 bio-pesticide and an alternative to the chemical neonicotinoid pesticides which have been linked to declines in pollinator populations. Honeybees perform sophisticated behaviours while foraging that require them to learn and remember floral traits associated with food. Disruption to this important function has profound implications for honeybee colony survival, because bees that cannot learn will not be able to find food and return to their hives. By pollinating some key crop species, honeybees make a vital contribution to food security. The decline of these insects raises significant concerns about our ability to feed a growing population. , based in 缅北禁地鈥檚 School of Biology and one of the supervisors on the project, explains: 鈥淥ur findings suggest that Hv1a/GNA is unlikely to cause any detrimental effects on honeybees. 鈥淧revious studies have already shown that it is safe for higher animals, which means it has real potential as a pesticide and offers us a safe alternative to some of those currently on the market.鈥 The project is part of the Insect Pollinators Initiative, jointly funded by the , Defra, the , the Scottish Government and the Wellcome Trust under the auspices of the Living with Environmental Change (LWEC) partnership. This research, involving academics from 缅北禁地 and Durham Universities and the Food and Environment Research Agency, was funded by the UK鈥檚 innovation agency the . During the study, the bees were exposed to varying concentrations of the spider/snowdrop bio-pesticide over a period of seven days. Throughout the study period, the team carried out a series of memory tests and recorded any changes in behaviour. Research lead , a PhD student at 缅北禁地, explains: 鈥淭his is an oral pesticide so unlike some that get absorbed through the exoskeleton, the spider/snowdrop recombinant protein has to be ingested by the insects.鈥 Unlike other pesticides, Hv1a/GNA affects an underexplored insecticidal target, calcium channels. These are more diverse than commonly-targeted insecticide receptors, such as sodium channels, and therefore offer the potential for more species-specific pesticides. 鈥淐alcium channels are linked to learning and memory in bees so it鈥檚 vital that any pesticide targeting them does not interfere with this process,鈥 explains Erich. 鈥淎lthough Hv1a/GNA was carried to the brain of the honeybee, it had no effect on the insect which suggests the highly selective spider-venom toxin does not interact with the calcium channels in the bee.鈥 The larvae were also unaffected by the Hv1a/GNA, as they were able to break it down in their gut. , one of the authors on the paper, heads up 缅北禁地鈥檚 Honeybee Lab. Last year she led the research which highlighted the damaging effect of neonicotinoids on bees鈥 ability to learn and remember and subsequently communicate to their hive mates. 鈥淎round 90pc of the world鈥檚 plants are directly or indirectly reliant on pollinators to survive,鈥 she explains. 鈥淚f we destroy the biodiversity of pollinators then it will be irrelevant how effective our pesticides are because we won鈥檛 have any crops to protect. 鈥淭here is now substantial evidence linking neonicotinoid pesticides to poor performance and survival in bees and what we need now is a clear directive from Government to develop and introduce bee-safe alternatives.鈥 Professor Gatehouse adds: 鈥淭here isn鈥檛 going to be one silver bullet. What we need is an integrated pest management strategy and insect-specific pesticides will be just one part of that.鈥 Source Information: 鈥淣ovel biopesticide based on a spider venom peptide shows no adverse effects on honeybees.鈥 Erich Nakasu, Sally Williamson, Martin Edwards, Elaine Fitches, John Gatehouse, Geraldine Wright and Angharad Gatehouse. Proceedings of the Royal Society B, June 4, 2014. published on: 4 June 2014
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